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Pediatr Crit Care Me · Jul 2011
Comparative StudyIn vitro performance comparison of the Sensormedics 3100A and B high-frequency oscillatory ventilators.
- Jason W Custer, Andaleeb Ahmed, David W Kaczka, Daniel G Mulreany, David N Hager, Brett A Simon, and R Blaine Easley.
- Department of Anesthesiology and Critical Care Medicine, Johns Hopkins Medical Institute, Baltimore, MD, USA.
- Pediatr Crit Care Me. 2011 Jul 1;12(4):e176-80.
ObjectiveThe Sensormedics 3100A and 3100B are widely used to provide high-frequency oscillatory ventilation in clinical practice. Infants and children <35 kg are typically oscillated with the 3100A and >35 kg with the 3100B. This study compares the effect of ventilator and patient parameters on delivered tidal volume during high-frequency oscillatory ventilation of a test lung with these devices.DesignLaboratory-based study.SubjectsTest lung and Sensormedics 3100A and 3100B high-frequency oscillators.InterventionsA previously validated hot-wire flowmeter (Florian) was placed in series with either a 3100A (n = 3) or 3100B (n = 3) ventilator and a Michigan test lung. Tidal volumes were measured over a range of mean airway pressure, inspiratory:expiratory ratio, frequency, pressure amplitude, and endotracheal tube internal diameter.Measurements And Main ResultsThe 3100A and 3100B delivered similar tidal volumes across a range of ventilator parameters for an inspiratory:expiratory ratio of 1:1, differing by <10%. However, at an inspiratory:expiratory ratio of 1:2, there was a statistically significant decrease in tidal volume for the 3100B compared with the 3100A at lower frequencies, which was partially mitigated by increasing pressure amplitude. The difference in the generated pressure and flow waveforms may account for the observed tidal volume differences between the high-frequency oscillatory ventilation models. Delivered tidal volume was highly dependent on endotracheal tube size.ConclusionsMultiple variables contribute to the delivered tidal volume during high-frequency oscillatory ventilation, including ventilator model selection and endotracheal tube size. It is possible that real-time, clinical monitoring of delivered tidal volume during high-frequency oscillatory ventilation would allow better titration and maximize performance of these ventilators in caring for critically ill patients.
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